Bridge, Output application, Limiter – MACKIE M1400/M1400i User Manual
Page 20: Cd frequency, Amp mode
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The
AMP MODE switch determines the in-
put signal routing within the M•1400/M•1400i
amplifier. Shipped from the factory, the switch
is set to
STEREO. This is correct for about 90%
of the applications using an amp like this
(hence the
TYPICAL indicator near it). But
you may be in the 10% bracket, requiring spe-
cial input routing within the amp.
AMP MODE should be configured before
operation — if you must change it during per-
formance, turn down the
GAIN
controls as
a precaution to protect the speakers from any
inadvertent pops or thumps.
STEREO
mode (separate left and right
inputs, separate left and right outputs) is the
typical setup for amplifying stereo signals.
MONO
mode (sometimes called Dual-
Mono – one mono input, two mono outputs) is
for sending a mono signal to two different
speaker sets, with separately-adjustable
GAIN
controls.
BRIDGE
mode (sometimes called
Bridged-Mono – one mono input, one mono
output) uses both sides of the amp to double
the power to one speaker set. With two
M•1400/M•1400i power amplifiers, each set to
BRIDGE mode, you can deliver as much as
1400 watts per amplifier.
If you set the
AMP MODE
switch to
MONO or
BRIDGE, use the CHAN-
NEL 1 inputs only — the
CHANNEL 2 inputs go no-
where in this case.
Note: There is one exception to this rule. If you
have the
OUTPUT APPLICATION switched to
SUBWOOFER, the inputs to Channels 1 and 2
are summed regardless of the
AMP MODE
setting (see
). Also,
BRIDGE
mode re-
quires special connections at the
SPEAKER
OUTPUTS
.
BRIDGE
In
STEREO mode, the M•1400/M•1400i
Power Amplifier can deliver 700 watts per side
into 2 ohms. If that’s not enough, you can use
two M•1400/M•1400i’s, each in
BRIDGE mode,
and deliver 1400 watts per amplifier into 4
ohms. Or, you can use one amp in
BRIDGE
mode to power a monaural system. Finally,
BRIDGE mode is also popular for subwoofer ap-
plications — but please see
SUBWOOFER
on the next page for a special subwoofer sur-
prise.
To use all the M•1400/M•1400i’s power to
drive one speaker cabinet using
BRIDGE mode,
you’ll have to do four things:
1. Turn off the power to the M•1400/M•1400i.
2. Set the
AMP MODE
switch to
BRIDGE.
3. Connect the positive side of the speaker
cable to the Channel 1 red (+) binding post.
4. Connect the negative side of the speaker
cable to the Channel 2 red (+) binding post.
5. (Okay, make that five things!) Use only the
CHANNEL 1 INPUT
(unless you’re using
the
SUBWOOFER OUTPUT APPLICATION).
The
CHANNEL 1 GAIN control adjusts the
output level of the amplifier. The
CHANNEL 2
GAIN control has no effect.
Once again: Before making connections to
an amp or reconfiguring an amp’s routing, turn
the power off, make the changes, then turn the
power back on.
OUTPUT APPLICATION
The
OUTPUT APPLICATION switch should
be configured before you turn on the amplifier.
This switch allows you to choose between three
different configurations:
LIMITER ON (TYPICAL). This is the normal
configuration: full-bandwidth audio with pro-
tective limiting (please see
).
LIMITER OFF is also full bandwidth audio,
but without protective limiting (please see
).
SUBWOOFER mode, with built-in low-pass
filter, no protective limiting (please see
).
LIMITER
The
LIMITER is not designed to alter your
sound — it’s just there to protect your speak-
ers from clipping. Its effect is virtually
transparent, meaning you probably won’t even
notice any audible difference. We recommend
that you leave it engaged (via
OUTPUT APPLI-
CATION
), hence the
TYPICAL label below it.
If you’re working at quiet levels all the time,
or you’ve already placed a compressor/limiter
in the signal path, or if you just hate compres-
sion, you can leave the
LIMITER out of the
circuit (via
OUTPUT APPLICATION
).
The
LIMITER is channel in-
dependent; that is, it works
independently on each chan-
nel. It senses when the
amplifier channel is about to
be overdriven and attenuates the overall level
just enough to keep the signal from clipping.
Clipping occurs when the output voltage no
longer linearly follows the input voltage and